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The Coexistence of
Money and Credit as Means of Payment
Sebastien Lotz
LEMMA, University of Paris IICathy Zhang
Purdue University
November 2013
Abstract
This paper studies the choice of payment instruments in a simple model where both moneyand credit can be used as means of payment. We endogenize the acceptability of credit byallowing retailers to invest in a costly record-keeping technology. Our framework captures thetwo-sided market interaction between consumers and retailers, leading to strategic complemen-tarities that can generate multiple steady-state equilibria. In addition, limited commitmentmakes debt contracts self-enforcing and yields an endogenous upper bound on credit use. Ourmodel can explain why the demand for credit declines as inflation falls, and how hold-up prob-lems in technological adoption can prevent retailers from accepting credit as consumers continueto coordinate on cash usage. We show that when money and credit coexist, equilibrium is generi-cally inefficient and changes to the debt limit are not neutral. We also discuss the extent to whichour model can reconcile some key patterns in the use of cash and credit in retail transactions.
Keywords: coexistence of money and credit, costly record-keeping, endogenous creditJEL Classification Codes: D82, D83, E40, E50
We are indebted to Guillaume Rocheteau for valuable feedback and comments throughout this project. This paperalso benefitted from discussions and comments from Luis Araujo, Zach Bethune, Pedro Gomis-Porqueras, Matt Hoelle,Tai-Wei Hu, Janet Jiang, Yiting Li, Stan Rabinovich, Jose Antonio Rodriguez-Lopez, Yongseok Shin, Irina Telyukova,Russell Tsz-Nga Wong, Randy Wright and seminar and conference participants at the 2013 Chicago Federal ReserveMoney, Banking, Finance, and Payments Workshop, Purdue University, Paris II, University of Queensland, U.C.Riverside, U.C. Irvine, 2013 Fall Midwest Macro Conference (University of Minnesota), 2013 Fall Midwest EconomicTheory Conference (University of Michigan), 2013 Econometric Society Summer Meeting (University of SouthernCalifornia), 2013 Spring Midwest Economic Theory Conference (Michigan State University), and the 2013 Theoriesand Methods in Macroeconomics Conference (Universite de Lyon). This paper previously circulated under the title,Paper or Plastic? Money and Credit as Means of Payment.Address: LEMMA, Universite Pantheon-Assas-Paris II, 92 rue dAssas, 75006 Paris, France. E-mail: lotz@u-
paris2.fr.Address: Department of Economics, Krannert School of Management, Purdue University, 403 W. State St., West
Lafayette, IN 47907, USA. E-mail: [email protected].
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1 Introduction
Technological improvements in electronic record-keeping have made credit cards as ubiquitous as
cash as means of payment in many OECD countries. Indeed much of the U.S. economy runs
on debt, with vast increases in both the usage and availability of unsecured debt ever since the
development of credit cards featuring revolving lines of credit.1 According to the U.S. Survey of
Consumer Finances (2007), nearly three-quarters of all U.S. households owned at least one credit
card with nearly half of all households carrying outstanding balances on these accounts. Moreover,
approximately 27% of U.S. households report simultaneously revolving credit card debt and holding
sizeable amounts of low-return liquid assets such as cash (Telyukova (2013)). This suggests that
while consumers are increasingly relying on credit cards to facilitate transactions, they are still not
completely abandoning cash. Indeed there is a substantial share of transactions such as mortgage
and rent payments that cannot be paid by credit card, so the choice of payment instruments by
consumers also depends critically on what others accept.
As consumers change the way they pay and businesses change the way they accept payments, it
is increasingly important to understand how consumer demand affects merchant behavior and vice
versa. In fact, the payment system is a classic example of a two-sided market where both consumers
and firms must make choices that affect one other (Rysman (2009), BIS (2012)). This dynamic
often generates complementarities and network externalities, which is a key characteristic of the
retail payment market.2 Moreover, the recent trends in retail payments raise many interesting and
challenging questions for central banks and policymakers. In particular, how does the availability
of alternative means of payment, such as credit cards, affect the role of money? And if both money
and credit can be used, how does policy and inflation affect the money-credit margin?
We investigate the possible substitution away from cash to credit cards using a simple model
where money and credit can coexist as means of payment. To capture the two-sided nature of
actual payment systems, our model focuses on the market interaction between consumers (buyers,
or borrowers) and retailers (sellers, or lenders). A vital distinction between monetary and credit
1Unsecured credit refers to loans not tied to other assets or secured by the pledge of collateral, such as credit cardloans. Consumer debt outstanding, which excludes mortgage debt, totaled over $2.1 trillion at the end of 2005, whichamounts to an average debt of $9,710 for each U.S. adult. The Federal Reserve (2005) reports that credit card loansaccount for roughly half of all unsecured debt in the United States. Between 1983 and 1998, outstanding balances oncredit cards across U.S. households more than tripled on average. More recently, the number of payments made bygeneral-purpose credit cards rose from 15.2 billion to 19.0 billion between 2003 and 2006 in the U.S. (Gerdes (2008)).
2Network externalities exist when the value of a good or service to a potential user increases with the number ofother users using the same product. Credit cards are a classic example of a network good, where its adoption anduse can be below the socially optimal level because consumers or firms do not internalize the benefit of their ownuse on others use. For evidence and a discussion of the empirical issues, see Gowrisankaran and Stavins (2004) andChakravorti (2010).
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trades is that the former is quid pro quo and settled on the spot while the latter involves delayed
settlement.3 While many economies now feature the widespread adoption of both money and credit
as means of payment, getting money and credit to coexist in theory is a much more delicate issue.
Indeed, across a wide class of models, there is a dichotomy between monetary and credit trades,
a key insight dating back to at least Kocherlakota (1998): so long as credit is feasible, there is no
social role for money, and if money is valued, then credit cannot be sustained.
For credit to have a role, we introduce a costly record-keeping technology that allows transac-
tions to be recorded. A retailer that invests in this technology will thus be able to accept an IOU
from a consumer.4 Due to limited commitment and enforcement however, lenders cannot force
borrowers to repay their debts. In order to motivate voluntary debt repayment, we assume that
default by the borrower triggers a punishment that banishes agents from all future credit trans-
actions. In that case, a defaulter can only trade with money. Consequently, debt contracts must
be self-enforcing and the possibility of strategic default generates an endogenous upper-bound on
credit use.5
A key insight of our theory is that both money and credit can be socially useful since some
sellers (endogenously) accept both cash and credit while others only take cash.6 At the same
time, consumers make their portfolio decisions taking into account the rate of return on money
and the fraction of the economy with access to credit. While credit allows retailers to sell to
illiquid consumers or to those paying with future income, money can still be valued since it allows
consumers to self-insure against the possibility of not being able to use credit in some transactions.
This need for liquidity therefore explains why individuals would ever use both, an insight of the
model that we think is fundamental in capturing the deep reason behind the coexistence of money
and credit.7
3This distinction separates debit cards, which are pay now cards, from credit cards, or pay later cards. Fordebit cards, funds are typically debited from the cardholders account within a day or two of purchase, while creditcards allow consumers to access credit lines at their bank which are repaid at a future date.
4Garcia-Swartz, Hahn, and Layne-Farrar (2006) find that the merchants cost of a typical credit transaction inthe U.S. is about seven times higher than their costs for accepting cash. This higher cost of accepting credit is borneby the merchant in the forms of merchant fees that typically are not paid for explicitly by buyers. In practice, thebuyer often pays the same purchase price using cash or credit, an outcome supported by no-surcharge regulationsthat prohibit merchants from passing through merchant fees to customers who prefer to pay by credit card.
5This is in the spirit of Kehoe and Levine (1993) and Alvarez and Jermann (2000) where defaulters are banishedfrom future credit transactions, but not from spot trades. Kocherlakota and Wallace (1998) consider an alternativeformalization where default triggers permanent autarky. In our framework, permanent autarky as punishment wouldhelp relax credit constraints since it increases the penalty for default.
6Our analysis differs from the usual cash-good/credit-good models due to the presence of limited commitmentand limited enforcement. In e.g. Lacker and Schreft (1996), the absence of these frictions means that endogenousborrowing limits do not arise.
7Using data from the Survey of Consumer Finances, Telyukova (2013) finds that the demand for precautionaryliquidity can account for nearly 44% to 56% of the credit card debt puzzle, the fact that households simultaneously
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In addition, inflation has two effects when enforcement is limited: a higher inflation rate both
lowers the rate of return on money and makes default more costly. This relaxes the credit constraint
and induces agents to shift from money to credit to finance their consumption. Consequently,
consumers decrease their borrowing as inflation falls. When the monetary authority implements
the Friedman rule, deflation completely crowds out credit and there is a flight to liquidity where
all borrowing and lending ceases to exist. In that case, efficient monetary policy drives out credit.8
When borrowers are not patient enough, inflation can have a hump-shaped effect on welfare and
there is a strictly positive inflation rate that maximizes welfare in a money and credit economy.
While equilibrium is inefficient when both money and credit are used, the first-best allocation can
still be achieved in a pure credit economy, provided that agents are patient enough. However
equilibrium is not socially efficient since sellers must incur the real cost of technological adoption.
The channel through which monetary policy affects macroeconomic outcomes is through buyers
choice of portfolio holdings, sellers decision to invest in the record-keeping technology, and the
endogenously determined credit constraint. If sellers must invest ex-ante in a costly technology
to record credit transactions, there are strategic complementarities between the sellers decision to
invest and the buyers ability to repay. When more sellers accept credit, the gain for buyers from
using and redeeming credit increases, which relaxes the credit constraint. At the same time, an
increase in the buyers ability to repay raises the incentive to invest in the record-keeping technology
and hence the fraction of credit trades. This complementarity leads to feedback effects that can
generate multiple equilibria, including outcomes where both money and credit are used.
Moreover, this channel mimics the mechanism behind two-sided markets in actual payment
systems as described by McAndrews and Wang (1998): merchants want to accept credit cards that
have many cardholders, and cardholders want cards that are accepted at many establishments.
Just as in our model, the payment network benefits the merchant and the consumer jointly, leading
to similar complementarities and network externalities highlighted in the industrial organization
literature. At the same time, consumers may still coordinate on using cash due to a hold-up problem
in technological adoption. Since retailers do not receive the full surplus associated with technological
adoption, they fail to internalize the total benefit of accepting credit. The choice of payment
instruments will therefore depend on fundamentals, as well as history and social conventions.
revolve credit card debt while holding money in the bank. The role of money in providing self-insurance againstheterogeneity in monitoring also appears in Sanches and Williamson (2010) and Gomis-Porqueras and Sanches (2013).
8In our model, the presence of multiple steady-state equilibria where either money, credit, or both are used makesthe choice of optimal policy difficult to analyze in full generality. If the monetary authority must choose an inflationrate before it knows which equilibrium will obtain, policy will affect the equilibrium selection process. In modelswhere the fraction of credit trades is fixed, limited commitment and imperfect enforcement can also lead to a positiveoptimal inflation rate; see e.g. Berentsen, Camera, and Waller (2007), Antinolfi, Azariadis, and Bullard (2009), andGomis-Porqueras and Sanches (2013).
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This paper proceeds as follows. Section 1.1 reviews the related literature. Section 2 describes
the environment with limited enforcement, and Section 3 defines equilibrium where an exogenous
fraction of sellers accept credit. Section 4 determines the endogenous debt limit and characterizes
equilibrium. Section 5 endogenizes the fraction of credit trades and discusses multiplicity. Section
6 investigates the effect of inflation on social welfare. Finally, Section 7 concludes.
1.1 Related Literature
Within modern monetary theory, there is a strong tradition of studying the coexistence of money
and credit, starting with Shi (1996) and Kocherlakota and Wallace (1998). More recently, there
are several models featuring divisible money and centralized credit markets using the Lagos and
Wright (2005) environment.9 Telyukova and Wright (2008) rationalize the credit card debt puzzle
in a model where there is perfect enforcement and segmentation of monetary and credit trades, in
which case monetary policy has no effect on credit use. Sanches and Williamson (2010) get money
and credit to coexist in a model with imperfect memory, limited commitment, and theft, while
Bethune, Rocheteau, and Rupert (2013) develop a model with credit and liquid assets to examine
the relationship between unsecured debt and unemployment. However in all these approaches, only
an exogenous subset of agents can use credit while the choice of using credit is endogenous in this
paper.10
Our model of endogenous record-keeping is based on the model of money and costly credit
in Nosal and Rocheteau (2011), though a key novelty is that we derive an endogenous debt limit
under limited commitment instead of assuming that loan repayments are perfectly enforced. Dong
(2011) also introduces costly record-keeping, but focuses on the buyers choice of payments used in
bilateral meetings.
In contrast with previous studies, we show that money is not crowded out one-for-one when
credit is also used. In particular, Gu, Mattesini, and Wright (2013) show that changes to the
debt limit are neutral in an environment with complete access to record-keeping. In our model, as
credit limits change, the fraction of sellers accepting credit also changes, which affects the value of
9In another approach, Berentsen, Camera, and Waller (2007) considers record-keeping of financial transactionsand models credit as bank loans or deposits in the form of money. However money is the only means of payment sincegoods transactions remain private information for banks. See also Chiu, Dong, and Shao (2012), which compares thewelfare effects of inflation in a nominal versus real loan economy.
10In a similar vein, Schreft (1992) and Dotsey and Ireland (1995) introduce costs paid to financial intermediariesto endogenize the composition of trades that use money or credit, and Freeman and Kydland (2000) feature a fixedrecord-keeping cost for transactions made with demand deposits. Our formalization is also reminiscent of Townsend(1989) and Williamson (1987)s costly state verification assumption. More recently, a related assumption is also madein Lester, Postlewaite, and Wright (2012) where sellers have to incur a fixed cost in order to authenticate and henceaccept an asset in trade.
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money and the net benefit of using credit. As a result, money is not crowded out one-for-one when
credit is also used. Another important difference is that our model assumes that a defaulter is
permanently excluded from credit trades but can still use money. In that case, increases in the cost
of holding money, which affects the existence of monetary equilibrium, can help discipline credit
market behavior by raising the cost of default and hence relaxing debt limits.
Another related paper is Gomis-Porqueras and Sanches (2013), which discusses the role of
money and credit in a model with anonymity, limited commitment, and imperfect record-keeping.
A key difference in the set-up is that they adopt a different pricing mechanism by assuming a
buyer-take-all bargaining solution. While this difference may seem innocuous, our assumption of
proportional bargaining allows us to take the analysis further in two important ways.11 By giving
the seller some bargaining power, proportional bargaining allows us to endogenize the fraction of
sellers that accept credit by allowing them to invest in costly record keeping. This also allows us to
discuss hold-up problems on the sellers side which will lead to complementarities with the buyers
borrowing limit. This generates interesting multiplicities and network effects that the previous
study cannot discuss.
This paper also relates with a growing strand in the industrial organization literature that
examines the costs and benefits of credit cards to network participants, including recent work by
Wright (2003, 2011) and Rochet and Tirole (2002, 2003, 2006). Chakravorti (2003) provides a
theoretical survey of the industrial organization approach to credit card networks, and Rysman
(2009) gives an overview of the economics of two-sided markets. However, this literature abstracts
from a critical distinction between monetary and credit transactions by ignoring the actual borrow-
ing component of credit transactions. An exception however is Chakravorti and To (2007), which
develops a theory of credit cards in a two-period model with delayed settlement. However since
money is not modeled, the model cannot examine issues of coexistence and substitutability between
cash and credit, which is a key contribution of the present paper.
2 Model
Time is discrete and continues forever. The economy consists of a continuum [0, 2] of infinitely
lived agents, evenly divided between buyers (or consumers) and sellers (or retailers). Each period
is divided into two sub-periods where economic activity will differ. In the first sub-period, agents
11More generally, proportional bargaining guarantees that trade is pairwise Pareto efficient and has several desirablefeatures that cannot be guaranteed with Nash bargaining, as discussed in Aruoba, Rocheteau, and Waller (2007).First, it guarantees the concavity of agents value functions. Second, the proportional solution is monotonic and hencedoes not suffer from a shortcoming of Nash bargaining that an agent can end up with a lower individual surplus evenif the size of the total surplus increases.
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meet pairwise and at random in a decentralized market, called the DM . Sellers can produce output,
q R+, but do not want to consume, while buyers want to consume but cannot produce. Agentsidentities as buyers or sellers are permanent, exogenous, and determined at the beginning of the
DM. In the second sub-period, trade occurs in a frictionless centralized market, called the CM ,
where all agents can consume a numeraire good, x R+, by supplying labor, y, one-for-one usinga linear technology.
Instantaneous utility functions for buyers, (U b), and sellers, (U s), are assumed to be separable
between sub-periods and linear in the CM:
U b (q, x, y) = u (q) + x y,U s (q, x, y) = c (q) + x y.
Functional forms for utility and cost functions in the DM, u(q) and c(q) respectively, are assumed
to be C2 with u > 0, u < 0, c > 0, c > 0, u(0) = c(0) = c(0) = 0, and u(0) = . Also, letq {q : u(q) = c(q)}. All goods are perishable and agents discount the future between periodswith a discount factor = 11+r (0, 1).
The only asset in this economy is fiat money, which is perfectly divisible, storable, and recogniz-
able. Money m R+ is valued at , the price of money in terms of numeraire. Its aggregate stockin the economy, Mt, can grow or shrink each period at a constant gross rate Mt+1Mt . Changes inthe money supply are implemented through lump-sum transfers or taxes in the CM to buyers. In
the latter case, we assume that the government has enough enforcement in the CM so that agents
will repay the lump-sum tax.12
To purchase goods in the DM, both monetary and credit transactions are feasible due to the
availability of a record-keeping technology that can record agents transactions and enforce re-
payment. However this technology is only available to a fraction [0, 1] of sellers, while theremaining 1 sellers can only accept money.13 For example, investment in this technology isinfinitely costly for a fraction 1 of firms while costless for the remaining firms. In Section 5, we
12While the government can never observe agents real balances, it has the authority to impose arbitrarily harshpenalties on agents who do not pay taxes when < 1. Alternatively, Andolfatto (2008, 2013) considers an environmentwhere the governments enforcement power is limited and the payment of lump-sum taxes is voluntary. Penalty forfailing to pay taxes in the CM is permanent exclusion from the DM. Along these lines, Appendix B determines thesize of the tax obligation that individuals are willing to honor voluntarily, in which case the Friedman rule is infeasiblesince it requires taxation and individuals may choose to renege on taxes if it is too high.
13The Bank of Canadas 2006 national survey of merchants on their preferred means of payment for point-of-saletransactions reports that nearly all merchants accept cash while 92% accept both cash and credit cards (Arangoand Taylor (2008)). The study also finds that record-keeping and other technological costs associated with acceptingcredit are incurred by the seller. For example, the ad valorem fee on credit card transactions is incurred by merchants,which in practice includes processing fees and interchange fees.
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Figure 1: Timing of Representative Period
endogenize by considering an alternative cost function where individual sellers have heterogenous
costs of investing.
We assume that contracts written in the DM can be repaid in the subsequent CM. Buyers can
issue b R+ units of one-period IOUs that we normalize to be worth one unit of the numerairegood.14 Since agents lack commitment, potential borrowers must be punished if they do not deliver
on their promise to repay. We assume that any default is publicly recorded by the record-keeping
technology and triggers punishment that leads to permanent exclusion from the credit system. In
that case, a borrower who defaults can only use money for all future transactions.15
The timing of events in a typical period is summarized in Figure 1. At the beginning of the
DM, a buyer matches with a seller with probability , where the buyer has b R+ units of IOUsand m R+ units of money, or equivalently, z m R+ units of real balances. Terms of trade
14One interpretation of our model is that sellers with access to the record-keeping technology can make loansdirectly to the buyer without interacting with an intermediary, such as a bank or credit card issuer. Equivalently, theseller and credit card issuer is modeled as a consolidated entity. It would be equivalent to assume that the buyer drawson a line of credit from a third-party credit card issuer or intermediary in the CM, who then pays the seller for thepurchase if the seller has made the ex-ante investment to accept credit. While beyond the scope of the present paper,having a more active role for intermediaries would potentially allow for a more fruitful analysis of bank competitionand pricing issues.
15The record-keeping technology detects default with probability one. Introducing imperfect monitoring wheredefault is only detected probabilistically would all else equal decrease the cost of default and hence tighten creditlimits. See e.g. the analysis in Gu, Mattesini, and Wright (2013). In addition, while we assume that a defaulter isexcluded from using credit but can still use money, one can also assume that punishment for default is permanentautarky. In Appendix B, we derive the debt limit assuming that punishment for default is permanent autarky anddiscuss the implications of this assumption.
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are determined using a proportional bargaining rule. In the CM, buyers produce the numeraire
good, redeem their loan, and acquire money, while sellers can purchase the numeraire with money
and can get their loan repaid.
3 Equilibrium
The model can be solved in four steps. First, we characterize properties of agents value functions
in the CM. Using these properties, we then determine the terms of trade in the DM. Third, we
determine the buyers choice of asset holdings, and in Section 4 we characterize equilibrium with
the endogenous debt limit. Then in Section 5, we determine endogenously by allowing sellers
to invest in the costly record-keeping technology. We focus on stationary equilibria where real
balances are constant over time.
3.1 Centralized Market
In the beginning of the CM, agents consume the numeraire good x, supply labor y, and readjust
their portfolios. Let W b (z,b) denote the value function of a buyer who holds z units of realbalances and has issued b units of IOUs in the previous DM. Variables with a prime denote next
periods choices. The buyers maximization problem at the beginning of the CM, W b (z,b), is
W b (z,b) = maxx,y,z0
{x y + V b (z)} (1)
s.t. x+ b+ m = y + z + T, (2)
z = m, (3)
where V b is the buyers continuation value in the next DM and T ( 1)M is the lump-sumtransfer from the government (in units of numeraire). According to (2), the buyer finances his net
consumption of numeraire (x y), the repayment of his IOUs (b), and his following period realbalances (m) with his current real balances (z) and the lump-sum transfer (T ). Substitutingm = z/ from (3) into (2), and then substituting x y from (2) into (1) yields
W b (z,b) = z b+ T + maxz0
{z + V b (z)} . (4)
The buyers lifetime utility in the CM is the sum of his real balances net of any IOUs to be repaid,
the lump-sum transfer from the government, and his continuation value at the beginning of the next
DM net of the investment in real balances. The gross rate of return of money is t+1t =MtMt+1
= 1.
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Hence in order to hold z units of real balances in the following period, the buyer must acquire z
units of real balances in the current period.
Notice that W b(z,b) is linear in the buyers current portfolio: W b (z,b) = zb+W b (0, 0). Inaddition, the choice of real balances next period is independent of current real balances. Similarly,
the value function W s (z, b) of a seller who holds z units of real balances and b units of IOUs can
be written:
W s (z, b) = z + b+ V s(0),
where V s(0) is the value function of a seller at the beginning of the following DM since they have
no incentive to accumulate real balances in the DM.
3.2 Terms of Trade
We now turn to the terms of trade in the DM. Agents meet bilaterally, and bargain over the units of
real balances or IOUs to be exchanged for goods. We adopt Kalai (1977)s proportional bargaining
solution where the buyer proposes a contract (q, b, d), where q is the transfer of output from the
seller to buyer, d is the transfer of real balances from the buyer to seller, and b is the amount
borrowed by the buyer, such that he receives a constant share (0, 1) of the match surplus, whilethe seller gets the remaining share, 1 > 0.16
We will show that the terms of trade depend only on buyers portfolios and what sellers accept.
First consider a match where the seller accepts credit. To apply the pricing mechanism, notice that
the surplus of a buyer who gets q for payment d+ b to the seller is u(q) +W b(z d b)W b(z) =u(q)db, by the linearity of W b. Similarly, the surplus of a seller is c(q)+d+b. The bargainingproblem then becomes
(q, d, b) = arg maxq,d,b{u (q) d b} (5)
s.t. c (q) + d+ b = 1
[u (q) d b] (6)
d z (7)
b b. (8)
According to (5) (8), the buyers offer maximizes his trade surplus such that (i) the sellers payoffis a constant share 1 of the buyers payoff, (ii) the buyer cannot transfer more money thanhe has, and (iii) the buyer cannot borrow more than he can repay. Condition (7) is a feasibility
constraint on the amount the buyer can transfer to the seller, while condition (8) is the buyers
16There are also strategic foundations for the proportional bargaining solution. In Dutta (2012), Kalai (1977)ssolution emerges as a unique equilibrium outcome in a limiting case of a Nash demand game.
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incentive constraint that motivates voluntary debt repayment. The threshold b is an equilibrium
object and represents the endogenous borrowing limit faced by the buyer, which is taken as given
in the bargaining problem but is determined endogenously in the next section.
Combining the feasibility constraint (7) and the buyers incentive constraint (8) results in the
payment constraint
d+ b z + b, (9)
which says the total payment to the seller, d + b, cannot exceed the buyers payment capacity,
which is z + b when the seller accepts credit. The solution to the bargaining problem will depend
on whether the payment constraint, (9), binds. If (9) does not bind, then the buyer will have
sufficient wealth to purchase the first-best level of output, q. In that case, payment to the sellerwill be exactly
d+ b = (1 )u(q) + c(q).
If (9) binds, the buyer does not have enough payment capacity and will borrow up to their credit
limit and pay the rest with any cash on hand:
z + b = (1 )u(qc) + c(qc), (10)
where qc q(z + b) < q.If the seller does not have access to record-keeping, credit cannot be used. In that case, the
bargaining problem can be described by (5) (7) with b = b = 0. If z z (1 )u(q) + c(q),the buyer is not constrained and borrows enough to obtain q. Otherwise, the buyer just handsover his real balances,
z = (1 )u(q) + c(q), (11)
where q q(z) < q.
3.3 Decentralized Market
We next characterize agents value functions in the DM. After simplification, the expected dis-
counted utility of a buyer holding z units of real balances at the beginning of the period is:
V b (z) = (1 ) [u(q) c (q)] + [u (qc) c (qc)] + z +W b (0, 0) , (12)
where we have used the bargaining solution and the fact that the buyer will never accumulate
more balances than he would spend in the DM. According to (12), a buyer in the DM is randomly
matched with a seller who does not have access to record-keeping with probability (1), receives
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of the match surplus, u(q) c(q), and can only pay with money. With probability , a buyermatches with a seller with access to record-keeping, in which case he gets of u(qc) c(qc) andcan pay with both money and credit. The last two terms result from the linearity of W b and is the
value of proceeding to the CM with ones portfolio intact.
3.4 Optimal Portfolio Choice
Next, we determine the buyers choice of real balances. Given the linearity of W b, the buyers
bargaining problem (5) (7), and substituting V b (z) from (12) into (4), the buyers choice of realbalances must satisfy:
maxz>0{iz + (1 ) [u(q) c(q)] + [u(qc) c(qc)]} , (13)
where i = is the nominal interest rate on an illiquid bond and represents the cost of holdingreal balances. As a result, the buyer chooses his real balances z in order to maximize his expected
surplus in the DM net of the cost of holding money, i.
Since the objective function (13) is continuous and maximizes over a compact set, a solution
exists. We further assume u(q) z(q) > 0 in order to guarantee the existence of a monetaryequilibrium. In the Appendix, we show that (13) is concave. The first-order condition for problem
(13) when z 0 is
i+ (1 ) [u(q) c(q)]
c(q) + (1 )u(q) + [u(qc) c(qc)]
c(qc) + (1 )u(qc) 0, (14)
where we have used that under proportional bargaining,
dq
dz=
1
z(q)=
1
c(q) + (1 )u(q) ,
dqc
dz=
1
z(qc)=
1
c(qc) + (1 )u(qc) .
Condition (14) is satisfied with equality if z > 0. Notice that an increase in the debt limit, b, will
reduce z, but from (14), is not completely offset by a decline in the price of money, , due to the
(1 ) of trades that also take place with money but not credit. To see this, differentiate (14) toobtain
dz
db=
[1 +
(1 )S(z))S(z + b)
]1 (1, 0).
As a result, changes in the debt limit do not imply a one-for-one change in real balances when
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(0, 1). Notice however that when = 1, dzdb
= 1, in which case any increase in the debt limitwill crowd out real balances one-for-one as in Gu, Mattesini, and Wright (2013). We discuss in
detail this special case of perfect record-keeping in Section 4.3.
Finally, notice that under perfect enforcement, buyers are never constrained by b b and canborrow as much as they want to finance consumption of the first-best, q. When z > 0 under perfectenforcement, the third term on the left-hand-side of (14) equals to zero since at q, u(q) = c(q).In that case, the right-hand-side is increasing with , meaning that an increase in the fraction of
credit trades decreases q(z) and hence real balances z.
4 Limited Enforcement and Credit Limits
When the governments ability to force repayment is limited, borrowers may have an incentive to
renege on their debts. In order to support trade in a credit economy, we assume that punishment
for default entails permanent exclusion from the credit system. In that case, debt contracts must
be self-enforcing, and a borrower who defaults can no longer use credit and can only use money for
all future transactions.
The borrowing limit, b, is determined in order to satisfy the buyers incentive constraint to
voluntarily repay his debt in the CM:
W b (z,b) > W b (z) ,
where W b(z,b) is the value function of a buyer who repays his debt at the beginning of the CM,and W b(z) is the value function of a buyer who defaults. By the linearity of W b, the value function
of a buyer who repays his debt in the CM is
W b (z,b) = z b+W b (0, 0) .
On the other hand, the value function of a buyer who defaults, W b(z), must satisfy
W b (z) = z + T + maxz0
{z + V b (z)}
= z + W b(0),
where z 0 is the choice of real balances for a buyer without access to credit such that
i+ [u(q) c(q)]
c(q) + (1 )u(q) 0, (15)
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and with equality if z > 0. In addition, q solves z = (1 )u(q) + c(q) if z < (1 )c(q) + u(q)and z = (1 )c(q) + u(q) if z (1 )c(q) + u(q). By the linearity of W b(z,b) and W b(z),a buyer will repay his debt if
b b W b (0, 0) W b (0) ,
where b is the endogenous debt limit. In other words, the amount borrowed can be no larger than
the cost of defaulting, which is the difference between the lifetime utility of a buyer with access to
credit and the lifetime utility of a buyer permanently excluded from using credit.
Lemma 1. The equilibrium debt limit, b, is a solution to
rb = maxz0
{iz + [(1 )S (z) + S (z + b)]}maxz0{iz + S (z)} (b), (16)
where r = 1 , and S() u[q()] c[q()].
The left-side of (16), rb, represents the return from borrowing a loan of size b. The right-side,
(b), is the flow cost of defaulting, which equals the surplus from not having access to credit. To
characterize equilibrium under limited enforcement, we start by establishing some key properties
of the function (b).
Lemma 2. The function (b) maxz0
{iz + [(1 )S (z) + S (z + b)]}maxz0{iz + S (z)}
has the following key properties:
1. (0) = 0,
2. (0) = i 0,
3. (b)
> 0 when b < 1 )u(q) + c(q)= 0 when b (1 )u(q) + c(q),4. (b) is a concave function if b < (1)u(q)+c(q), and is linear if b (1)u(q)+c(q),
5. When (0, 1), (b) is continuous for all z > 0 and becomes discontinuous at b0, abovewhich z = 0.
6. When = 1, (b) is continuous for all z 0.
To describe how the debt limit affects the value of money and DM output, we first define
two critical values for the debt limit. For money to be valued, the size of the loan must be no
greater than the buyers payment capacity: z = (1 )u(qc) + c(qc) b > 0 if and only if
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Figure 2: Flow Cost of Default in Monetary and Credit Trades
b < (1 )u(qc) + c(qc). Hence the value b0 (1 )u(qc) + c(qc) is the threshold for the debtlimit, above which money is no longer valued and solves
rb0 = S(b0).
The value b1 (1 )u(q) + c(q) is the threshold for the debt limit, above which the buyer canborrow enough to finance consumption of the first-best, q. For all b b1, rb = S(q).
Lemma 3. Equilibrium with limited enforcement will be such that
1. If b [0, b0), then z > 0 and q(z + b) < q,
2. If b [b0, b1), then z = 0 and q(b) < q,
3. If b [b1,), then z = 0 and q(b) = q.
At b = 0, credit is not used and the buyer can only use money. Since (0) = 0, an equilibrium
without credit always exists. The function (b) represents the flow cost of not having access to
credit and is increasing in the size of the loan, b.
Figure 2 shows that there are three qualitatively different regions. When b [0, b0), money isvalued and the right side of (16) is continuous, increasing, and strictly concave. In this range, the
buyer can use both money and credit, but cannot borrow enough to obtain the first-best, q. Aboveb0, money is no longer valued, in which case the right side of (16) is given by 0(b) S(b)for b [b0, b1). Here, only credit is used and the buyer still cannot borrow enough to finance q.Finally when [b1,), the buyer is no longer constrained by his wealth and can borrow enough
14
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to obtain the first-best, q. In that case, the flow cost of default becomes constant and equal to0 S, where S u(q) c(q). Hence in Figure 2, money is valued only in the shadedregion where b < b0, while equilibrium is non-monetary for all b b0.
Furthermore since S() is a concave function, the slope of (b) at b = 0 which is S(z), isstrictly less than than the slope of 0(b) at b = 0 which is S
(0) = 1 . Consequently, thecost of default when money is valued, (b), is less than the cost of defaulting with no money, 0(b).
In addition, when (0, 1), both (b) and 0(b) are strictly concave.17 This is shown in Figure2 where (b) lies strictly below 0(b). Intuitively, the off-equilibrium-path punishment for default
becomes harsher when money is no longer valued since the marginal cost of not having access to
credit is larger under permanent autarky.
Definition 1. Given , a steady-state equilibrium with limited enforcement is a list (q, qc, z, z, b)
that satisfy (10), (11), (14), (15), and (16).
We now turn to characterizing three types of steady-state equilibria that can arise in the
model: (i) a pure credit equilibrium, (ii) a pure monetary equilibrium, and (iii) a money and
credit equilibrium.
4.1 Pure Credit Equilibrium
A non-monetary equilibrium with credit exists when z = z = 0 and b [b0,). When money isnot valued, the debt limit b must satisfy
rb = S(b) 0(b). (17)
A necessary condition for there to be credit is that the slope of rb is less than the slope of 0(b) at
b = 0, or
r <
1 . (18)
When the fraction of sellers accepting credit is exogenous, there exists a threshold for the fraction
of credit trades, below which b = 0. From (18), credit is feasible if
>r(1 )
.
Figure 3 shows the determination of the debt limit. Notice that an equilibrium without credit
always exists since b = 0 is always a solution to (16). This captures the idea that an equilibrium
17See Section 4.3 for an analysis of the model with = 1, which will have qualitatively different properties fromthe model with (0, 1).
15
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without credit is self-fulfilling and can arise under the expectation that borrowers will not repay
their debts in the future.
In addition, there exists a critical value for the rate of time preference, r, below which the
debt limit stops binding and borrowers can borrow enough to purchase the first-best, q. Theborrowing constraint will not bind if b (1 )u(q) + c(q), in which case r must satisfyr[(1 )u(q) + c(q)] = [u(q) c(q)]. Hence borrowers will be unconstrained if
r [u(q) c(q)]
(1 )u(q) + c(q) r.
Accordingly, the first-best is more likely to be attained if agents are more patient, trading frictions
are small, buyers have enough market power in the DM, or the fraction of the economy with access
to record-keeping is large. Since r < 1 is always satisfied whenever a pure credit equilibriumexists, the borrowing constraint binds if r < r < 1 and does not bind if r < r <
1 .
Figure 3: Pure Credit Equilibrium Figure 4: Decrease in r
Figure 4 depicts the pure credit equilibrium and shows the effects of a decrease in r, or as agents
become more patient. When r decreases to r = r, the debt limit increases to b1 and quantity tradedincreases from q < q to q. Intuitively, the borrowing limit relaxes as agents become more patientsince buyers can credibly promise to repay more. If on the other hand r increases above 1 ,the borrowing limit is driven to zero as borrowers do not care about the future enough to sustain
credit use.
More generally, 0(b) shifts up as the measure of sellers with access to record-keeping, ,
increases, trading frictions, 1, decrease, or the buyers bargaining power, , increases, eachof which relaxes the debt limit and thereby increasing b. Moreover, notice that since money is
not valued in a pure credit equilibrium, inflation has no effect on the debt limit or equilibrium
allocations.
16
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Figure 5: Pure Monetary Equilibrium
4.2 Pure Monetary Equilibrium
In a pure monetary equilibrium, money is valued (z > 0) while credit is not used (b = 0). At b = 0,
(0) = 0 by Lemma 2. Further, since S(z) is concave and S (0) = 1(1) , money is valued if andonly if
i = S(z),
i < S(0),
i < 1 i.
The critical value, i is the upper-bound for the cost of holding money, above which money is no
longer valued.18
In addition, an equilibrium with money and credit is not feasible if i < r, so that the slope of
(b) at b = 0 is less than the slope of rb. Consequently, there exists a critical value i r , belowwhich credit is not incentive-feasible given money is valued. Figure 5 plots (b) as a function of
b when i < i and i < i. In that case, (b) intersects rb from below, and the unique monetary
equilibrium is one where b = 0.
18In a monetary model with bargaining where z depends on q, one must also check if there are corner solutions,i.e. z = 0, which may not ruled out even with the Inada condition u(0) =. Why would buyers ever choose z = 0?While the buyers marginal utility is infinite at z = 0, marginal cost can be infinite as well. Here, marginal cost is
given by the term dzdq
= z(q) = c(q) + (1 )u(q). By the envelope theorem, the term u(q)c(q)c(q)+(1)u(q) at z = 0
becomes 11 .To see this another way, one can substitute z(q) = (1 )u(q) + c(q) into the objective function and
rearrange to obtain maxq[0,q]{[ i(1 )]u(q) [i + ]c(q)}. Using the fact that u(0) = , a necessary andsufficient condition for z > 0 under proportional bargaining is that [ i(1 )] > 0, or i <
1 .
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The next proposition characterizes how a key policy variable, the money growth rate , affects
the existence of a monetary equilibrium.
Proposition 1. Define (1 + i) and (1 + i), where i r and i 1 . If < , thenr < 1 > and the following steady-state equilibria are possible:
1. If = , a pure monetary equilibrium with q = q, z = z = (1 )u(q) + c(q), and b = 0exists uniquely.
2. If (, ), a pure monetary equilibrium with q < q, z = z < (1 )u(q) + c(q), andb = 0 exists.
3. If (, ), a pure monetary equilibrium coexists with a pure credit equilibrium. If inaddition, r (0, r], equilibrium with credit is unconstrained with qc = q and b = (1 )u(q) + c(q). If r (r,i), equilibrium with credit is constrained with qc < q andb < (1 )u(q) + c(q).
4. If , a pure monetary equilibrium ceases to exist, and a pure credit equilibrium will exist.If r (0, r], then qc = q and b = (1 )u(q) + c(q). If r (r,i), then qc < q andb < (1 )u(q) + c(q).
The first part of Proposition 1 is very intuitive and simply says that when = , the rate
of return on money is high enough so that there is no need to use credit. At the Friedman rule,
deflation completely crowds out credit since the incentive to renege is too high to support voluntary
debt repayment. Efficient monetary policy drives out credit, and money alone is enough to finance
the first-best.19
In addition, the Friedman rule is sufficient but not necessary to permit the uniqueness of a
pure monetary equilibrium. Proposition 1 also shows that so long as < , credit can never be
sustained in a monetary equilibrium since the incentive to renege is too high. To take the most
extreme case, suppose that = 1 so that record-keeping is perfect and all sellers accept credit.
Given money is valued, credit cannot be sustained if i < r, or equivalently, < = 1. Even though
all sellers accept credit, buyers choose to only hold real balances since the incentive to renege on
debt repayment is too high.
It is possible for a pure monetary equilibrium to coexist with a pure credit equilibrium when
(, ). In this region, the cost of holding money is high enough for debt repayment to be19As we show in Appendix B however, the Friedman rule may not be feasible since it requires taxation and
individuals may choose to renege on their tax obligation if it is too high. In that case, the only way to achieve thefirst-best will be with credit.
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feasible but low enough so that money is still valued. When > , money is too costly to hold and
only credit is feasible. The first-best allocation can be achieved provided that agents are patient
enough, or if r (0, r]. This can be implemented with any inflation rate such that > (1+ i).In that case, equilibrium is unconstrained and a pure credit economy ensures that agents trade the
first-best level of output.
4.3 Money and Credit Equilibrium
In a monetary equilibrium with credit, b (0, b0), z > 0, and z > 0. We first derive existenceconditions for a money and credit equilibrium in the model with (0, 1), and then turn to avery special case of the model when = 1. In either case we must check that two conditions are
satisfied for a money and credit equilibrium to exist: (1) credit is incentive-feasible, given that
money is valued and (2) money is valued, given a debt limit.
First, given money is valued, there will be a positive debt limit if the slope of (b) at b = 0,
(0) = S(z), is greater than the slope of rb, or
i > r,
where we have used the fact that when z > 0, i = S(z) at b = 0. As a result, a necessarycondition for b > 0 given z > 0 is
i > i r. (19)
The critical value i is the lower bound on the nominal interest rate, above which credit is incentive
feasible. Intuitively, condition (19) says that the cost of holding money cannot be too low so that
buyers would prefer to renege on repayment, and buyers have to be patient enough to care about
the possibility of future punishment.
Second, given b, there will be an interior solution for z if and only if
i < [(1 )S(0) + S[b(i,)]],
i < (1 ) 1 + S
[b(i,)]],
where b(i,) implicitly defines b as a function of exogenous parameters, i and . Consequently,
z > 0 if and only if
i < i, (20)
where i solves
i = (1 ) 1 + S
[b(i,)]]. (21)
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The determination of i is illustrated in Figure 6, which plots the right-hand-side of (21) against i.
In the shaded region, i (i, i), in which case z > 0 and b > 0.Finally, z > 0 if and only if i < i 1 . Notice however that i < i is implied by the condition
i < i: when i > i, i = (1 )i + S[b(i,)] < i. This can also be seen in Figure 6, wherei < i. Hence, i < i implies the condition i < i is satisfied. Consequently, a necessary condition for
a monetary equilibrium with credit to exist is i (i, i).
Figure 6: Determination of i when (0, 1)and i (i, i)
Figure 7: Pure Monetary, Money-Credit, andPure Credit Eq. when (0, 1) and i (i, i)
A money and credit equilibrium when (0, 1) is depicted in Figure 7. In order for thereto be credit, condition (19) implies that (b) must intersect rb from above. Notice that a pure
monetary equilibrium exists whenever there is an equilibrium with both money and credit since the
condition for a monetary equilibrium, i < i, is always satisfied if i (i, i) and that there is always asolution to (16) with b = 0. Since only a fraction of sellers accept credit, money maintains a social
role since it allows buyers to insure against the possibility of not being able to use credit in some
transactions.
We now turn to discussing a special case of the model with perfect record-keeping. The deter-
mination of the debt limit with = 1 is depicted in Figure 9.20 As before, the flow cost of default
(b) depends on whether or not money is valued. When i < i, money is valued and (b) is linear for
all b < b0 = z. In that case, a buyer chooses his real balances so that his total wealth is the same as
a buyer who defaults: since z + b = z from (14) and (15), (b) = ib, which is linear with a slope of
i. When i i, money is no longer valued, in which case b b0 and the flow cost of default becomes(b) = S(b), which is strictly concave if b [b0, b1) and linear if b b1 = (1 )u(q) + c(q).
When = 1, a necessary condition for credit is that the slope of (b) = S(b) at b = 0 is
20For a similar analysis in a model of liquid assets and credit with perfect record-keeping, see Bethune, Rocheteau,and Rupert (2013). See also Gu, Mattesini, and Wright (2013).
20
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Figure 8: i = i < i at i = r when = 1Figure 9: Pure Monetary and Pure Credit Eq.when = 1
greater than the slope of rb. If money is not valued, b > 0 if r < 1 = i. In addition, there willbe a unique positive debt limit if i > i = r so that (b) = ib intersects with rb from above, as in
Figure 9. In that case, there will be a unique b > b0 that solves (16). However since b > b0, money
is no longer valued. If instead i < r, the only solution to (16) is b = 0, in which case (b) = ib
would intersect with rb from below. Finally if i = r, the debt limit is indeterminate and there are
a continuum of solutions b [0, b0] that solves (16).Can a money and credit equilibrium exist under perfect record-keeping? We prove that in the
special case of our model with = 1, the answer is no. This is illustrated in Figure 8, which depicts
the determination of i when = 1. Notice that there are a continuum of solutions at i = r since
the debt limit is indeterminate when i = r. The 45-degree line intersects with the right-hand-side
of (21) at i = i = r, in which case i = i < i. At i = r, we therefore have i = i, meaning that the
existence condition for a money and credit equilibrium can no longer be satisfied.
The following proposition summarizes the existence conditions for a money and credit equilib-
rium and highlights the special case of the model with = 1, in which case a money and credit
equilibrium ceases to exist.
Proposition 2. When i (i, i) and (0, 1), a money and credit equilibrium exists. In addition,a money and credit equilibrium will coexist with a pure monetary equilibrium and a pure credit
equilibrium. If = 1, there can be a pure credit equilibrium where b > 0 and z = z = 0, a pure
monetary equilibrium where b = 0 and z > 0, or a non-monetary equilibrium without credit, but
there cannot be an equilibrium where both money and credit are used.
Proposition 2 highlights an important dichotomy between monetary and credit trades when
record-keeping is perfect ( = 1): there can be trades with credit only or trades with money only,
but never trades with both money and credit. This special case also points to the difficulty of
getting money and credit to coexist when all trades are identical and record-keeping is perfect:
21
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either only credit is used as money becomes inessential, or only money is used since the incentive
to renege on debt repayment is too high. This also captures the insight by Kocherlakota (1998)
that there is no social role for money in an economy with perfect record-keeping.
Having characterized existence properties of a money and credit equilibrium, we now turn to
discussing some comparative statics for effects on the debt limit, which the table below summarizes.
b
b
bi
br
b
+ + + +
An increase in the fraction of the economy with access to record-keeping, , increases the right-
hand-side of (16), which shifts (b) up and induces an increase in b. When more sellers accept
credit, the gain for buyers from using and redeeming credit increases, which relaxes the debt limit.
The increase in can be high enough so that credit starts to drive money out of circulation.
This can cause the money and credit equilibrium to disappear, in which case there will be a pure
monetary equilibrium and a pure credit equilibrium.
An increase in inflation (analogously, i) generates a similar qualitative effect. In this way,
inflation has two effects in this model: first, is the usual effect on reducing the purchasing power of
money, which reduces trade and hence welfare; second, is the effect on reducing agents incentive
to default. Intuitively, an increase in the inflation tax relaxes the credit constraint by increasing
the cost of default, since defaulters need to bring enough money to finance their consumption.
In sum, the debt limit depends on the fraction of credit trades, the extent of trading frictions,
the rate of return on money, agents patience, and the buyers bargaining power. The larger the
fraction of sellers that accept credit, the lower the rate of return on money, or the more patient
agents become, the less likely the credit constraint will be binding. In these cases, the buyer can
credibly promise to repay more, which induces cooperation in credit arrangements thereby relaxing
the debt limit.
4.4 Multiple Equilibria
A particularly striking feature of the model is that there can be a multiplicity of equilibria even
without any changes in fundamentals. The next proposition establishes the possible cases for
multiple equilibria, which the remainder of this subsection discusses.
Proposition 3. When i i, equilibrium will be non-monetary and there will either be ( i) autarkywhere neither money nor credit is used if [0,] or ( ii) a pure credit equilibrium if (, 1].When i < i, a pure monetary equilibrium either ( iii) exists uniquely if [0,], ( iv) coexists witha pure credit equilibrium if (, 1], or ( v) coexists with both a pure credit equilibrium and amoney and credit equilibrium if and only if i (i, i).
22
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Figure 10: Multiple Equilibria in (, i)-Space
Proposition 3 is illustrated in Figure 10, which plots existence conditions for different types of
equilibria in (, i)-space.21 We have shown in the previous sub-sections that a necessary condition
for credit is > , a pure monetary equilibrium will exist only i < i 1 , and both money andcredit to be used if i (i, i) and (0, 1).
Figure 10 also shows how payment systems depend not just on fundamentals but also on
histories and social conventions. Suppose that inflation is initially low and the economy is in an
equilibrium where a pure monetary equilibrium coexists with a pure credit equilibrium (region
M,C). As inflation increases above i, the pure monetary equilibrium disappears and only credit is
used (region C). But when inflation goes back down to its initial level, it is possible that agents
may still coordinate on the pure credit equilibrium. The economy therefore displays hysteresis
and inertia: when there are many possible types of equilibria, social conventions and histories can
dictate the equilibrium that prevails.
When agents get less patient (r increases), both the threshold for credit to be used, , and the
condition for both money and credit to be used, i = r , increases. In Figure 10, the vertical line
shifts to the right while the curve i shifts up. An increase in r therefore decreases the possibility of
any equilibrium with credit. Intuitively, less patient buyers find it more difficult to credibly promise
to repay their debts, which decreases their borrowing limit b.
21The types of equilibria in Figure 10 are a pure credit (C) equilibrium, a pure monetary (M) equilibrium, and amixed equilibrium where both money and credit are used (MC).
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5 Costly Record-Keeping
We now consider the choice of accepting credit by making [0, 1] endogenous. In order toaccept credit, sellers must invest ex-ante in a costly record-keeping technology that records and
authenticates an IOU proposed by the buyer.22 The per-period cost of this investment in terms
of utility is > 0, which is drawn from a cumulative distribution F () : R+ [0, 1]. Sellers areheterogenous according to their record-keeping cost and are indexed by .23 To ensure an interior
equilibrium, assume = 0 for a positive measure of agents and that is arbitrarily high for a
positive measure of agents. Hence for some sellers this cost will be close to zero, so that they will
always accept credit, while for others this cost will be very large and they will never accept credit.
The distribution of costs across sellers is known by all agents and is assumed to be continuous.
At the beginning of each period, sellers decide whether or not to invest. When making this
decision, sellers take as given buyers choice of real balances, z, and the debt limit, b. The sellers
problem is given by
max{+ (1 )S(z + b), (1 )S(z)}. (22)
According to (22), if the seller decides to invest, he incurs the disutility cost > 0 that allows him
to extend a loan to the buyer. In that case, the seller extracts a constant fraction (1 ) of thetotal surplus, S(z + b) u[q(z + b)] c[q(z + b)]. If the seller does not invest, then he can onlyaccept money, and gets (1 ) of S(z) u[q(z)] c[q(z)]. Since total surplus is increasing in thebuyers total wealth z + b, S(z + b) > S(z).
There exists a threshold for the record-keeping cost, below which sellers invest in the record-
keeping technology and above which they do not invest. From (22), this threshold is given by
(1 )[S(z + b) S(z)], (23)
and gives the sellers expected benefit of accepting credit. Since S(z + b) increases with b, the
sellers expected benefit increases with b. Given , let () [0, 1] denote an individual sellers22This cost can also reflect issues of fraud and information problems that permeate the credit industry such as credit
card fraud, identity theft, and the need to secure confidential information. Besides being a costly drain on banks andretailers that accept credit, these problems may erode consumer confidence in the credit card industry. See Roberds(1998) for a discussion and Kahn and Roberds (2008) and Roberds and Schreft (2009) for recent formalizations ofidentify theft and Li, Rocheteau, and Weill (2013) for a model of fraud.
23Arango and Taylor (2008) find that merchants perceive cash as the least costly form of payment while creditcards stand out as the most costly due to relatively high processing fees.
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decision to invest. This decision problem is given by
() =
1
[0, 1]
0
if
. (24)
Condition (24) simply says that all sellers with < will invest in the costly record-keeping
technology, since the benefit exceeds the cost; sellers with > do not invest; and any seller with
= will invest with an arbitrary probability since they are indifferent.
Consequently, since F () is continuous, the aggregate measure of sellers that invest is
0()dF () = F (). (25)
That is, the measure of sellers that invest is given by the measure of sellers with .
Definition 2. A steady-state equilibrium with limited enforcement and endogenous record-keeping
is a list (q, qc, z, z, b,) that satisfy (10), (11), (14), (15), (16), and (25).
To determine equilibrium when is endogenous, we first characterize the debt limit, given
sellers investment decisions. Next, we determine sellers investment decisions, given the debt limit.
Finally, we jointly determine b and in equilibrium.
5.1 Debt Limit, b
Given sellers investment decisions, , credit must be incentive feasible and satisfy (16).
The following lemma summarizes properties of the equilibrium correspondence for the debt
limit, which describes how b depends on the measure of sellers who invest.
Lemma 4. When i < i ( ri > ), the equilibrium correspondence for b consists of three curves:bn
= 0 (no-credit curve), bmc (0, b0) (money-credit curve), and bc (bc,) (pure credit curve).
Let the measure of sellers that accept credit at b0 be defined as 0 rb0S(b0) , and let bc be definedas the threshold for the debt limit, above which > .
1. For all [0, 1], there exists an equilibrium without credit with bn = 0.
2. When ( ri ,0], the debt limit bmc (0, b0) is strictly increasing and convex in .
3. When (, 1], the debt limit bc (bc, b1) is strictly increasing and convex in , and linearfor b
c [b1,).
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5.2 Measure of Sellers Who Invest,
Given b, sellers must decide whether to invest in the costly technology to record credit transactions.
The following lemma summarizes how sellers investment decisions, , depend on the debt limit.
Lemma 5. The equilibrium condition for is continuous and strictly increasing in b when b [0, b1) and constant at 1 1 when b [b1,).
Figure 11: Equilibrium b and if i < i Figure 12: Equilibrium b and if i i
Together, Lemma 4 and Lemma 5 allow us to characterize equilibrium as a function of the
measure of sellers who invest, , and the debt limit, b.
Proposition 4. When b and are endogenous, there are multiple steady-state equilibria charac-
terized by the cases below.
1. If i < i ( ri > ), there exists (i) a pure monetary equilibrium where z > 0, b = 0, and = 0; (ii) a pure credit equilibrium where z = 0, b > 0, and 1 (0, 1]; and (iii) amoney and credit equilibrium where z > 0, b > 0, and < 0 (0, 1).
2. If i i ( ri ), there exists (i) a non-monetary equilibrium without credit where z = 0,b = 0, and = 0; and (ii) a pure credit equilibrium where z = 0, b > 0, and 1 (0, 1].
The first part of Proposition 4 is illustrated in Figure 11. When i < i, the equilibrium conditions
for b and intersect three times. Hence there are three different types of equilibria: (i) a pure
monetary equilibrium where only money is used ( = 0), (ii) a money and credit equilibrium where
a fraction < 0 (0, 1) of sellers accept both money and credit while the remaining (1) sellersonly accept money, and (iii) a pure credit equilibrium where money is not valued and a fraction
1 of sellers accept credit while the remaining (1 ) do not. Similarly, Figure 12 illustrates
26
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the second part of Proposition 4. When i i, money is not valued and there can only exist (i) apure credit equilibrium and (ii) a non-monetary equilibrium without credit.
The multiplicity of equilibria arises through the general equilibrium effects in the trading en-
vironment that produce strategic complementarities between buyers and sellers decisions.24 As
is evident from agents upward-sloping reaction functions in Figure 11, what the seller accepts af-
fects how much debt the buyer can repay and vice versa. When more sellers invest in the costly
record-keeping technology, the gain for buyers from using credit also increase. As default becomes
more costly, the incentive to renege falls which raises the debt limit. At the same time, when more
sellers accept credit, then money is needed in a smaller fraction of matches. So long as it is costly
to hold money, buyers will therefore carry fewer real balances. This in turn gives sellers even more
incentive to accept credit, which in turn raises the debt limit and hence reduces the buyers real
balances.
6 Welfare
We now turn to examining some of the models normative implications and begin by comparing
the different types of equilibria in terms of social welfare. Societys welfare is measured as the
steady-state sum of buyers and sellers utilities in the DM:W (1)V b(z) + (1)V s(0). Thisis given by
W [S(z + b) + (1 )S(z)] k (26)
where k 0 dF () is defined as the aggregate record-keeping cost averaged across individualsellers. Table 1 summarizes social welfare across these types of equilibria.
Table 1: Welfare Across Equilibria
Equilibrium Welfare
Pure Monetary Wm = S(z)Pure Credit Wc = S(b) k
Money and Credit Wmc = [S(z + b) + (1 )S(z)] k
Figure 13 plots social welfare in the three types of equilibria as a function of the money growth
rate, . So long as > , a pure credit equilibrium can exist for all i > 0, or equivalently, for all
> . Welfare in a pure credit economy is independent of the money growth rate, so that Wc inFigure 13 is horizontal for all > .
24Strategic complementarities between the sellers decision to invest and the buyers choice of real balances wouldstill exist even under perfect enforcement where borrowers can always borrow enough to finance purchase of thefirst-best. See Nosal and Rocheteau (2011) for an analysis assuming loan repayments are always perfectly enforced.
27
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However at = , an efficient economy can run without credit and a pure monetary economy
exists uniquely. In that case, welfare is maximized at the Friedman rule, = , with social welfare
given by Wm = S, where S u(q) c(q). As increases however, it may be possible thatWc >Wm. This will occur if > c, where c is the critical value for the money growth rate, abovewhich Wc >Wm. Moreover when is endogenous, welfare in a pure credit equilibrium under anyinflation rate will always be socially inefficient and dominated by a pure monetary equilibrium at
the Friedman rule since sellers must incur the real cost of technological adoption.
Consequently, for the pure credit equilibrium to dominate the pure monetary equilibrium in
welfare terms, the inflation rate must be high enough, as illustrated in Figure 13, or the aggregate
record-keeping cost must be low enough that is, Wc > Wm if k < [S(b) S(z)]. However,even with a high enough inflation rate or low enough record keeping cost, it is still possible for the
welfare-dominated monetary equilibrium to prevail due to a rent-sharing externality: since sellers
must incur the full cost of technological adoption but only obtain a fraction (1 ) of the totalsurplus, they fail to internalize the full benefit of accepting credit. Consequently, there can be
coordination failures and excess inertia in the decision to accept credit, in which case the economy
can still end up in the Pareto-inferior monetary equilibrium.
We can also compare welfare in a money and credit economy with welfare in a pure monetary
economy and pure credit economy. Recall that a necessary condition for a money and credit
equilibrium is i (i, i), or equivalently, (, ). When i = i or = , credit is no longer feasiblegiven money is valued. In that case, b = 0 and z > 0 and welfare becomes Wmc = S(z) = Wm.Alternatively when i = i or = , money is no longer valued given a positive debt limit, in which
case z = 0, b > 0, and welfare becomes Wmc = S(b) k = Wc. In the example in Figure 13,we can therefore have Wmc > Wm and Wmc > Wc for (, ). More generally, we also showin Appendix A that at c, welfare in a money and credit equilibrium dominates welfare in a pure
credit equilibrium so long as is not too large.
Effect of Inflation on Welfare
We now consider the effect of inflation on social welfare for the three types of equilibria examined
above. To fix ideas, we start by assuming is exogenous. The presence of multiple equilibria for
the same fundamentals makes the choice of optimal policy difficult to analyze in full generality
since we must deal with the issue of equilibrium selection. In regions with multiplicity, we will
assume agents coordinate on a particular equilibrium and then analyze the optimal policy of that
equilibrium.
When i < i and < , there exists an equilibrium where agents only use money. In that case,
social welfare is decreasing in the inflation rate: dWmdi = S(z)dzdi < 0 since from (14),
dzdi < 0.
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Figure 13: Welfare in a Pure Monetary vs. Money and Credit vs. Pure Credit Economy
Since inflation is a tax on money holdings, an increase in inflation will reduce the purchasing power
of money, and hence output and welfare. If lump-sum taxes can be enforced, the optimal policy
in a pure monetary equilibrium corresponds to the Friedman rule. Appendix B analyzes the case
assuming tax liabilities are not perfectly enforced, in which case there is a lower bound on the
deflation rate, above which tax repayment is incentive-feasible.
Now suppose that > and i i so that the economy is in a pure credit equilibrium. Sincemoney is not valued in a pure credit equilibrium, inflation has no effect on welfare as shown in
Figure 13.
Finally, suppose that i (i, i), and agents coordinate on the money and credit equilibrium. Inthat case, the overall effect of inflation on welfare is ambiguous and depend on two counteracting
effects: a real balance effect and the debt limit effect. In a money and credit equilibrium, we verify
in Appendix A that the effect of inflation on welfare is given by
dWmcdi
= S(z + b)[dz
di+
(dz
db+ 1
)db
di
]+ (1 )S(z)dz
di, (27)
where dzdi = [((1 )S(z) + S(z + b))]1 < 0, dzdb = [1 + (1)S
(z))S(z+b)
]1 (1, 0), anddbdi =
zzrS(z+b) > 0. Generally, the term[
dz
di+
(dz
db+ 1
)db
di
]
29
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can be positive or negative, which determines whether dWmcdi is positive or negative. Indeed the
sign of (27) depends on the value of , the relative change in the marginal surpluses of using
both money and credit versus using money only, the magnitude of the effective of inflation on real
balances (dzdi < 0), and the magnitude of the effect of inflation on the debt limit (dbdi > 0). In the
(1 ) of transactions involving money only, inflating is simply a tax on buyers real balances,which decreases welfare. However in the of transactions with both money and credit, an increase
in inflation can be welfare improving by relaxing agents borrowing constraints. Intuitively, higher
inflation makes default more costly which reduces the incentive to default, raises the debt limit,
and increases welfare.
Figure 13 also shows that in a money and credit economy, there may be an interior money
growth rate strictly above the Friedman rule that maximizes Wmc. However notice that maximumwelfare in a money and credit economy is still strictly dominated by welfare in a pure monetary
economy at the Friedman rule. In that case, money works too well and there can be no socially
useful role for credit. The Friedman rule is still the globally optimal monetary policy, which achieves
both the first-best and saves society on record-keeping costs.
When is endogenous, the positive effect of inflation on welfare is amplified and generates
additional feedback effects. Since an increase in inflation raises the debt limit, sellers now have
an even greater incentive to accept credit, which further relaxes borrowing constraints. When the
debt limit relaxes to the point where it no longer binds, all sellers accept credit and money is no
longer valued. In that case, agents can still trade the first-best level of output even when monetary
authorities do not implement the Friedman rule. Notice however this equilibrium is not socially
efficient since sellers must still incur the real cost of technological adoption.
7 Conclusion
As many economies now increasingly rely on credit cards as both a payment instrument and a
means to borrow against future income, it is increasingly important to understand how individuals
substitute between cash and credit. Despite the increasing availability of unsecured lending such as
credit cards loans, consumers still demand paper currency and liquid assets for certain transactions
that simply cannot be paid for with credit. That money and credit coexist appears to be the norm
rather than the exception in many economies, and one goal of our paper is to try and delve deeper
into understanding why.
To that end, we build a simple search model where money can have a socially useful role and
credit is feasible. In order to capture the two-sided nature of actual payment systems, we jointly
model the acceptability of credit by retailers and the portfolio allocation and debt repayment
30
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decisions by consumers. We show that inflation induces individuals to substitute from money to
credit for two reasons: a higher inflation rate both lowers the rate of return on money and makes
default more costly, which relaxes agents borrowing limits. When inflation is in an intermediate
range and record-keeping is imperfect, both money and credit can coexist since a fraction of the
economy only takes cash while the other fraction can accept both.
While credit allows retailers to sell to illiquid consumers or to those paying with future income,
money can still be valued since it allows consumers to self-insure against the risk of not being able
to use credit in some transactions. So long as inflation is not too high, there is a precautionary
demand for liquidity that explains why individuals would still hold money even in an economy
with credit. Therefore, money is not crowded out one-for-one with credit due to the demand for
cash in the instances where credit cannot be used. This insight captures much of what is observed
across many economies, yet is a result that is difficult to obtain in many previous models. We
show however that in special case of our model with perfect record-keeping, the usual Kocherakota
(1998) wisdom appears: when credit is feasible, there is no social role for money, and when money
is valued, credit cannot be sustained.
Our theory also highlights a strategic complementarity between consumers credit limit and
retailers decision to invest. Multiple equilibria and coordination failures can therefore arise due to
the two-sided market nature of payment systems. This potential for coordination failures also raises
new concerns for policymakers. In contrast with conventional wisdom, our theory suggests that
economies with similar technologies, institutions, and policies can still end up with very different
payment systems, some being better in terms of social welfare than others.
31
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Data Appendix
Here we describe some recent patterns regarding the usage and adoption of cash and credit cards
summarized in the Introduction. To motivate the theory, we establish that (1) the salient differences
between cash and credit cards for consumers include set-up costs, usage costs, merchant acceptance,
and record-keeping; (2) households simultaneously revolve credit card debt while holding liquid
assets such as cash; and (3) credit cards are more costly to accept than cash for merchants.
For the United States, consumer-level data on adoption and usage of cash versus credit cards
is publicly available through the Federal Reserve Bank of Bostons Survey of Consumer Payment
Choice (SCPC) for 2008 and 2009. For s summary of the survey methodology and results, see
Foster, Meijer, Schuh, and Zabek (2011). The SCPC is administered by the RAND Corporation
to a subject pool drawn from the RAND American Life Panel. Respondents answer questions
focusing on their personal adoption and use of eight different payment instruments (cash, checks,
debit cards, credit cards, prepaid cards, onli